Linux premium180.web-hosting.com 4.18.0-553.54.1.lve.el8.x86_64 #1 SMP Wed Jun 4 13:01:13 UTC 2025 x86_64
LiteSpeed
: 162.0.209.168 | : 216.73.216.187
Cant Read [ /etc/named.conf ]
8.3.30
nortrmdp
www.github.com/MadExploits
Terminal
AUTO ROOT
Adminer
Backdoor Destroyer
Linux Exploit
Lock Shell
Lock File
Create User
CREATE RDP
PHP Mailer
BACKCONNECT
UNLOCK SHELL
HASH IDENTIFIER
CPANEL RESET
CREATE WP USER
BLACK DEFEND!
README
+ Create Folder
+ Create File
/
lib /
dracut /
modules.d /
40network /
[ HOME SHELL ]
Name
Size
Permission
Action
dhcp-root.sh
816
B
-rwxr-xr-x
ifname-genrules.sh
1.09
KB
-rwxr-xr-x
module-setup.sh
672
B
-rwxr-xr-x
net-lib.sh
25.09
KB
-rwxr-xr-x
netroot.sh
2.61
KB
-rwxr-xr-x
Delete
Unzip
Zip
${this.title}
Close
Code Editor : net-lib.sh
#!/bin/sh is_ip() { echo "$1" | { IFS=. read a b c d test "$a" -ge 0 -a "$a" -le 255 \ -a "$b" -ge 0 -a "$b" -le 255 \ -a "$c" -ge 0 -a "$c" -le 255 \ -a "$d" -ge 0 -a "$d" -le 255 \ 2> /dev/null } && return 0 return 1 } get_ip() { local iface="$1" ip="" ip=$(ip -o -f inet addr show $iface) ip=${ip%%/*} ip=${ip##* } echo $ip } iface_for_remote_addr() { set -- $(ip -o route get to $1) echo $5 } iface_for_ip() { set -- $(ip -o addr show to $1) echo $2 } iface_for_mac() { local interface="" mac="$(echo $1 | sed 'y/ABCDEF/abcdef/')" for interface in /sys/class/net/*; do if [ $(cat $interface/address) = "$mac" ]; then echo ${interface##*/} fi done } # get the iface name for the given identifier - either a MAC, IP, or iface name iface_name() { case $1 in ??:??:??:??:??:??|??-??-??-??-??-??) iface_for_mac $1 ;; *:*:*|*.*.*.*) iface_for_ip $1 ;; *) echo $1 ;; esac } # list the configured interfaces configured_ifaces() { local IFACES="" iface_id="" rv=1 [ -e "/tmp/net.ifaces" ] && read IFACES < /tmp/net.ifaces if { pidof udevd || pidof systemd-udevd; } > /dev/null; then for iface_id in $IFACES; do echo $(iface_name $iface_id) rv=0 done else warn "configured_ifaces called before udev is running" echo $IFACES [ -n "$IFACES" ] && rv=0 fi return $rv } all_ifaces_up() { local iface="" IFACES="" [ -e "/tmp/net.ifaces" ] && read IFACES < /tmp/net.ifaces for iface in $IFACES; do [ -e /tmp/net.$iface.up ] || return 1 done } all_ifaces_setup() { local iface="" IFACES="" [ -e "/tmp/net.ifaces" ] && read IFACES < /tmp/net.ifaces for iface in $IFACES; do [ -e /tmp/net.$iface.did-setup ] || return 1 done } get_netroot_ip() { local prefix="" server="" rest="" splitsep "$1" ":" prefix server rest case $server in [0-9]*\.[0-9]*\.[0-9]*\.[0-9]*) echo "$server"; return 0 ;; esac return 1 } ip_is_local() { strstr "$(ip route get $1 2>/dev/null)" " via " } ifdown() { local netif="$1" # ip down/flush ensures that routing info goes away as well ip link set $netif down ip addr flush dev $netif echo "#empty" > /etc/resolv.conf rm -f -- /tmp/net.$netif.did-setup [ -z "$DO_VLAN" ] && \ [ -e /sys/class/net/$netif/address ] && \ rm -f -- /tmp/net.$(cat /sys/class/net/$netif/address).did-setup # TODO: send "offline" uevent? } setup_net() { local netif="$1" f="" gw_ip="" netroot_ip="" iface="" IFACES="" local _p [ -e /tmp/net.$netif.did-setup ] && return [ -z "$DO_VLAN" ] && \ [ -e /sys/class/net/$netif/address ] && \ [ -e /tmp/net.$(cat /sys/class/net/$netif/address).did-setup ] && return [ -e "/tmp/net.ifaces" ] && read IFACES < /tmp/net.ifaces [ -z "$IFACES" ] && IFACES="$netif" # run the scripts written by ifup [ -e /tmp/net.$netif.hostname ] && . /tmp/net.$netif.hostname [ -e /tmp/net.$netif.override ] && . /tmp/net.$netif.override [ -e /tmp/dhclient.$netif.dhcpopts ] && . /tmp/dhclient.$netif.dhcpopts # set up resolv.conf [ -e /tmp/net.$netif.resolv.conf ] && \ awk '!array[$0]++' /tmp/net.$netif.resolv.conf > /etc/resolv.conf [ -e /tmp/net.$netif.gw ] && . /tmp/net.$netif.gw # add static route for _p in $(getargs rd.route); do route_to_var "$_p" || continue [ -n "$route_dev" ] && [ "$route_dev" != "$netif" ] && continue ip route add "$route_mask" ${route_gw:+via "$route_gw"} ${route_dev:+dev "$route_dev"} if strstr "$route_mask" ":"; then printf -- "%s\n" "$route_mask ${route_gw:+via $route_gw} ${route_dev:+dev $route_dev}" \ > /tmp/net.route6."$netif" else printf -- "%s\n" "$route_mask ${route_gw:+via $route_gw} ${route_dev:+dev $route_dev}" \ > /tmp/net.route."$netif" fi done # If a static route was necessary to reach the gateway, the # first gateway setup call will have failed with # RTNETLINK answers: Network is unreachable # Replace the default route again after static routes to cover # this scenario. [ -e /tmp/net.$netif.gw ] && . /tmp/net.$netif.gw # Handle STP Timeout: arping the default gateway. # (or the root server, if a) it's local or b) there's no gateway.) # Note: This assumes that if no router is present the # root server is on the same subnet. # Get DHCP-provided router IP, or the cmdline-provided "gw=" argument [ -n "$new_routers" ] && gw_ip=${new_routers%%,*} [ -n "$gw" ] && gw_ip=$gw # Get the "netroot" IP (if there's an IP address in there) netroot_ip=$(get_netroot_ip $netroot) # try netroot if it's local (or there's no gateway) if ip_is_local $netroot_ip || [ -z "$gw_ip" ]; then dest="$netroot_ip" else dest="$gw_ip" fi unset layer2 if [ -f /sys/class/net/$netif/device/layer2 ]; then read layer2 < /sys/class/net/$netif/device/layer2 fi if [ "$layer2" != "0" ] && [ -n "$dest" ] && ! strstr "$dest" ":"; then if command -v arping2 >/dev/null; then arping2 -q -C 1 -c 60 -I $netif $dest || info "Resolving $dest via ARP on $netif failed" else arping -q -f -w 60 -I $netif $dest || info "Resolving $dest via ARP on $netif failed" fi fi unset layer2 > /tmp/net.$netif.did-setup [ -z "$DO_VLAN" ] && \ [ -e /sys/class/net/$netif/address ] && \ > /tmp/net.$(cat /sys/class/net/$netif/address).did-setup } save_netinfo() { local netif="$1" IFACES="" f="" i="" [ -e /tmp/net.ifaces ] && read IFACES < /tmp/net.ifaces # Add $netif to the front of IFACES (if it's not there already). set -- "$netif" for i in $IFACES; do [ "$i" != "$netif" ] && set -- "$@" "$i"; done IFACES="$*" for i in $IFACES; do for f in /tmp/dhclient.$i.*; do [ -f $f ] && cp -f $f /tmp/net.${f#/tmp/dhclient.} done done echo $IFACES > /tmp/.net.ifaces.new mv /tmp/.net.ifaces.new /tmp/net.ifaces } set_ifname() { local name="$1" mac="$2" num=-1 n="" # if it's already set, return the existing name for n in $(getargs ifname=); do strstr "$n" "$mac" && echo ${n%%:*} && return done # otherwise, pick a new name and use that while :; do num=$(($num+1)); [ -e /sys/class/net/$name$num ] && continue for n in $(getargs ifname=); do [ "$name$num" = "${n%%:*}" ] && continue 2 done break done echo "ifname=$name$num:$mac" >> /etc/cmdline.d/45-ifname.conf echo "$name$num" } # pxelinux provides macaddr '-' separated, but we need ':' fix_bootif() { local macaddr=${1} local IFS='-' macaddr=$(printf '%s:' ${macaddr}) macaddr=${macaddr%:} # strip hardware type field from pxelinux [ -n "${macaddr%??:??:??:??:??:??}" ] && macaddr=${macaddr#??:} # return macaddr with lowercase alpha characters expected by udev echo $macaddr | sed 'y/ABCDEF/abcdef/' } ibft_to_cmdline() { local iface="" modprobe -q iscsi_ibft ( for iface in /sys/firmware/ibft/ethernet*; do local mac="" dev="" local dhcp="" ip="" gw="" mask="" hostname="" local dns1 dns2 [ -e ${iface}/mac ] || continue mac=$(read a < ${iface}/mac; echo $a) [ -z "$mac" ] && continue dev=$(set_ifname ibft $mac) [ -e /tmp/net.${dev}.has_ibft_config ] && continue [ -e ${iface}/flags ] && flags=$(read a < ${iface}/flags; echo $a) # Skip invalid interfaces (( $flags & 1 )) || continue # Skip interfaces not used for booting unless using multipath if ! getargbool 0 rd.iscsi.mp ; then (( $flags & 2 )) || continue fi [ -e ${iface}/dhcp ] && dhcp=$(read a < ${iface}/dhcp; echo $a) [ -e ${iface}/origin ] && origin=$(read a < ${iface}/origin; echo $a) [ -e ${iface}/ip-addr ] && ip=$(read a < ${iface}/ip-addr; echo $a) if [ -n "$ip" ] ; then case "$ip" in *.*.*.*) family=ipv4 ;; *:*) family=ipv6 ;; esac fi if [ -n "$dhcp" ] || [ "$origin" -eq 3 ]; then if [ "$family" = "ipv6" ] ; then echo "ip=$dev:dhcp6" else echo "ip=$dev:dhcp" fi elif [ -e ${iface}/ip-addr ]; then # skip not assigned ip adresses [ "$ip" = "0.0.0.0" ] && continue [ -e ${iface}/gateway ] && gw=$(read a < ${iface}/gateway; echo $a) [ "$gateway" = "0.0.0.0" ] && unset $gateway [ -e ${iface}/subnet-mask ] && mask=$(read a < ${iface}/subnet-mask; echo $a) [ -e ${iface}/prefix-len ] && prefix=$(read a < ${iface}/prefix-len; echo $a) [ -e ${iface}/primary-dns ] && dns1=$(read a < ${iface}/primary-dns; echo $a) [ "$dns1" = "0.0.0.0" ] && unset $dns1 [ -e ${iface}/secondary-dns ] && dns2=$(read a < ${iface}/secondary-dns; echo $a) [ "$dns2" = "0.0.0.0" ] && unset $dns2 [ -e ${iface}/hostname ] && hostname=$(read a < ${iface}/hostname; echo $a) if [ "$family" = "ipv6" ] ; then if [ -n "$ip" ] ; then ip="[$ip]" [ -n "$prefix" ] || prefix=64 ip="[${ip}/${prefix}]" mask= fi if [ -n "$gw" ] ; then gw="[${gw}]" fi fi if [ -n "$ip" ] && [ -n "$mask" -o -n "$prefix" ]; then echo "ip=$ip::$gw:$mask:$hostname:$dev:none${dns1:+:$dns1}${dns2:+:$dns2}" else warn "${iface} does not contain a valid iBFT configuration" warn "ip-addr=$ip" warn "gateway=$gw" warn "subnet-mask=$mask" warn "hostname=$hostname" fi else info "${iface} does not contain a valid iBFT configuration" ls -l ${iface} | vinfo fi if [ -e ${iface}/vlan ]; then vlan=$(read a < ${iface}/vlan; echo $a) if [ "$vlan" -ne "0" ]; then case "$vlan" in [0-9]*) echo "vlan=$dev.$vlan:$dev" echo $mac > /tmp/net.${dev}.${vlan}.has_ibft_config ;; *) echo "vlan=$vlan:$dev" echo $mac > /tmp/net.${vlan}.has_ibft_config ;; esac else echo $mac > /tmp/net.${dev}.has_ibft_config fi else echo $mac > /tmp/net.${dev}.has_ibft_config fi done ) >> /etc/cmdline.d/40-ibft.conf } parse_iscsi_root() { local v v=${1#iscsi:} # extract authentication info case "$v" in *@*:*:*:*:*) authinfo=${v%%@*} v=${v#*@} # allow empty authinfo to allow having an @ in iscsi_target_name like this: # netroot=iscsi:@192.168.1.100::3260::iqn.2009-01.com.example:testdi@sk if [ -n "$authinfo" ]; then OLDIFS="$IFS" IFS=: set $authinfo IFS="$OLDIFS" if [ $# -gt 4 ]; then warn "Wrong authentication info in iscsi: parameter!" return 1 fi iscsi_username=$1 iscsi_password=$2 if [ $# -gt 2 ]; then iscsi_in_username=$3 iscsi_in_password=$4 fi fi ;; esac # extract target ip case "$v" in [[]*[]]:*) iscsi_target_ip=${v#[[]} iscsi_target_ip=${iscsi_target_ip%%[]]*} v=${v#[[]$iscsi_target_ip[]]:} ;; *) iscsi_target_ip=${v%%[:]*} v=${v#$iscsi_target_ip:} ;; esac unset iscsi_target_name # extract target name case "$v" in *:iqn.*) iscsi_target_name=iqn.${v##*:iqn.} v=${v%:iqn.*}: ;; *:eui.*) iscsi_target_name=eui.${v##*:eui.} v=${v%:eui.*}: ;; *:naa.*) iscsi_target_name=naa.${v##*:naa.} v=${v%:naa.*}: ;; esac # parse the rest OLDIFS="$IFS" IFS=: set $v IFS="$OLDIFS" iscsi_protocol=$1; shift # ignored iscsi_target_port=$1; shift if [ -n "$iscsi_target_name" ]; then if [ $# -eq 3 ]; then iscsi_iface_name=$1; shift fi if [ $# -eq 2 ]; then iscsi_netdev_name=$1; shift fi iscsi_lun=$1; shift if [ $# -ne 0 ]; then warn "Invalid parameter in iscsi: parameter!" return 1 fi return 0 fi if [ $# -gt 3 ] && [ -n "$1$2" ]; then if [ -z "$3" ] || [ "$3" -ge 0 ] 2>/dev/null ; then iscsi_iface_name=$1; shift iscsi_netdev_name=$1; shift fi fi iscsi_lun=$1; shift iscsi_target_name=$(printf "%s:" "$@") iscsi_target_name=${iscsi_target_name%:} } ip_to_var() { local v=${1}: local i set -- while [ -n "$v" ]; do if [ "${v#\[*:*:*\]:}" != "$v" ]; then # handle IPv6 address i="${v%%\]:*}" i="${i##\[}" set -- "$@" "$i" v=${v#\[$i\]:} else set -- "$@" "${v%%:*}" v=${v#*:} fi done unset ip srv gw mask hostname dev autoconf macaddr mtu dns1 dns2 if [ $# -eq 0 ]; then autoconf="error" return 0 fi if [ $# -eq 1 ]; then # format: ip={dhcp|on|any|dhcp6|auto6|either6} # or # ip=<ipv4-address> means anaconda-style static config argument cluster autoconf="$1" if strglob "$autoconf" "*.*.*.*"; then # ip=<ipv4-address> means anaconda-style static config argument cluster: # ip=<ip> gateway=<gw> netmask=<nm> hostname=<host> mtu=<mtu> # ksdevice={link|bootif|ibft|<MAC>|<ifname>} ip="$autoconf" gw=$(getarg gateway=) mask=$(getarg netmask=) hostname=$(getarg hostname=) dev=$(getarg ksdevice=) autoconf="none" mtu=$(getarg mtu=) # handle special values for ksdevice case "$dev" in bootif|BOOTIF) dev=$(fix_bootif $(getarg BOOTIF=)) ;; link) dev="" ;; # FIXME: do something useful with this ibft) dev="" ;; # ignore - ibft is handled elsewhere esac fi return 0 fi if [ "$2" = "dhcp" -o "$2" = "on" -o "$2" = "any" -o "$2" = "dhcp6" -o "$2" = "auto6" -o "$2" = "either6" ]; then # format: ip=<interface>:{dhcp|on|any|dhcp6|auto6}[:[<mtu>][:<macaddr>]] [ -n "$1" ] && dev="$1" [ -n "$2" ] && autoconf="$2" [ -n "$3" ] && mtu=$3 if [ -z "$5" ]; then macaddr="$4" else macaddr="${4}:${5}:${6}:${7}:${8}:${9}" fi return 0 fi # format: ip=<client-IP>:[<peer>]:<gateway-IP>:<netmask>:<client_hostname>:<interface>:{none|off|dhcp|on|any|dhcp6|auto6|ibft}:[:[<mtu>][:<macaddr>]] [ -n "$1" ] && ip=$1 [ -n "$2" ] && srv=$2 [ -n "$3" ] && gw=$3 [ -n "$4" ] && mask=$4 [ -n "$5" ] && hostname=$5 [ -n "$6" ] && dev=$6 [ -n "$7" ] && autoconf=$7 case "$8" in [0-9a-fA-F]*:*|[0-9]*.[0-9]*.[0-9]*.[0-9]*) dns1="$8" [ -n "$9" ] && dns2="$9" ;; [0-9]*) mtu="$8" if [ -n "${9}" -a -z "${10}" ]; then macaddr="${9}" elif [ -n "${9}" -a -n "${10}" -a -n "${11}" -a -n "${12}" -a -n "${13}" -a -n "${14}" ]; then macaddr="${9}:${10}:${11}:${12}:${13}:${14}" fi ;; *) if [ -n "${9}" -a -z "${10}" ]; then macaddr="${9}" elif [ -n "${9}" -a -n "${10}" -a -n "${11}" -a -n "${12}" -a -n "${13}" -a -n "${14}" ]; then macaddr="${9}:${10}:${11}:${12}:${13}:${14}" fi ;; esac return 0 } route_to_var() { local v=${1}: local i set -- while [ -n "$v" ]; do if [ "${v#\[*:*:*\]:}" != "$v" ]; then # handle IPv6 address i="${v%%\]:*}" i="${i##\[}" set -- "$@" "$i" v=${v#\[$i\]:} else set -- "$@" "${v%%:*}" v=${v#*:} fi done unset route_mask route_gw route_dev case $# in 2) [ -n "$1" ] && route_mask="$1"; [ -n "$2" ] && route_gw="$2" return 0;; 3) [ -n "$1" ] && route_mask="$1"; [ -n "$2" ] && route_gw="$2"; [ -n "$3" ] && route_dev="$3" return 0;; *) return 1;; esac } parse_ifname_opts() { local IFS=: set $1 case $# in 7) ifname_if=$1 # udev requires MAC addresses to be lower case ifname_mac=$(echo $2:$3:$4:$5:$6:$7 | sed 'y/ABCDEF/abcdef/') ;; 21) ifname_if=$1 # udev requires MAC addresses to be lower case ifname_mac=$(echo $2:$3:$4:$5:$6:$7:$8:$9:${10}:${11}:${12}:${13}:${14}:${15}:${16}:${17}:${18}:${19}:${20}:${21} | sed 'y/ABCDEF/abcdef/') ;; *) die "Invalid arguments for ifname=" ;; esac case $ifname_if in eth[0-9]|eth[0-9][0-9]|eth[0-9][0-9][0-9]|eth[0-9][0-9][0-9][0-9]) warn "ifname=$ifname_if uses the kernel name space for interfaces" warn "This can fail for multiple network interfaces and is discouraged!" warn "Please use a custom name like \"netboot\" or \"bluesocket\"" warn "or use biosdevname and no ifname= at all." ;; esac } # some network driver need long time to initialize, wait before it's ready. wait_for_if_link() { local cnt=0 local li local timeout="$(getargs rd.net.timeout.iflink=)" timeout=${timeout:-60} timeout=$(($timeout*10)) while [ $cnt -lt $timeout ]; do li=$(ip -o link show dev $1 2>/dev/null) [ -n "$li" ] && return 0 sleep 0.1 cnt=$(($cnt+1)) done return 1 } wait_for_if_up() { local cnt=0 local li local timeout="$(getargs rd.net.timeout.ifup=)" timeout=${timeout:-20} timeout=$(($timeout*10)) while [ $cnt -lt $timeout ]; do li=$(ip -o link show up dev $1) if [ -n "$li" ]; then case "$li" in *\<UP*) return 0;; *\<*,UP\>*) return 0;; *\<*,UP,*\>*) return 0;; esac fi if strstr "$li" "LOWER_UP" \ && strstr "$li" "state UNKNOWN" \ && ! strstr "$li" "DORMANT"; then return 0 fi sleep 0.1 cnt=$(($cnt+1)) done return 1 } wait_for_route_ok() { local cnt=0 local timeout="$(getargs rd.net.timeout.route=)" timeout=${timeout:-20} timeout=$(($timeout*10)) while [ $cnt -lt $timeout ]; do li=$(ip route show) [ -n "$li" ] && [ -z "${li##*$1*}" ] && return 0 sleep 0.1 cnt=$(($cnt+1)) done return 1 } wait_for_ipv6_dad_link() { local cnt=0 local timeout="$(getargs rd.net.timeout.ipv6dad=)" timeout=${timeout:-50} timeout=$(($timeout*10)) while [ $cnt -lt $timeout ]; do [ -n "$(ip -6 addr show dev "$1" scope link)" ] \ && [ -z "$(ip -6 addr show dev "$1" scope link tentative)" ] \ && return 0 [ -n "$(ip -6 addr show dev "$1" scope link dadfailed)" ] \ && return 1 sleep 0.1 cnt=$(($cnt+1)) done return 1 } wait_for_ipv6_dad() { local cnt=0 local timeout="$(getargs rd.net.timeout.ipv6dad=)" timeout=${timeout:-50} timeout=$(($timeout*10)) while [ $cnt -lt $timeout ]; do [ -n "$(ip -6 addr show dev "$1")" ] \ && [ -z "$(ip -6 addr show dev "$1" tentative)" ] \ && [ -n "$(ip -6 route list proto ra dev "$1" | grep ^default)" ] \ && return 0 [ -n "$(ip -6 addr show dev "$1" dadfailed)" ] \ && return 1 sleep 0.1 cnt=$(($cnt+1)) done return 1 } wait_for_ipv6_auto() { local cnt=0 local timeout="$(getargs rd.net.timeout.ipv6auto=)" timeout=${timeout:-40} timeout=$(($timeout*10)) while [ $cnt -lt $timeout ]; do [ -z "$(ip -6 addr show dev "$1" tentative)" ] \ && [ -n "$(ip -6 route list proto ra dev "$1" | grep ^default)" ] \ && return 0 sleep 0.1 cnt=$(($cnt+1)) done return 1 } linkup() { wait_for_if_link $1 2>/dev/null\ && ip link set $1 up 2>/dev/null\ && wait_for_if_up $1 2>/dev/null } type hostname >/dev/null 2>&1 || \ hostname() { cat /proc/sys/kernel/hostname } iface_has_carrier() { local cnt=0 local interface="$1" flags="" [ -n "$interface" ] || return 2 interface="/sys/class/net/$interface" [ -d "$interface" ] || return 2 local timeout="$(getargs rd.net.timeout.carrier=)" timeout=${timeout:-10} timeout=$(($timeout*10)) linkup "$1" li=$(ip -o link show up dev $1) strstr "$li" "NO-CARRIER" && _no_carrier_flag=1 while [ $cnt -lt $timeout ]; do if [ -n "$_no_carrier_flag" ]; then li=$(ip -o link show up dev $1) # NO-CARRIER flag was cleared strstr "$li" "NO-CARRIER" || return 0 elif ! [ -e "$interface/carrier" ]; then # sysfs not available and "NO-CARRIER" not displayed return 0 fi # double check the syscfs carrier flag [ -e "$interface/carrier" ] && [ "$(cat $interface/carrier)" = 1 ] && return 0 sleep 0.1 cnt=$(($cnt+1)) done return 1 } iface_has_link() { iface_has_carrier "$@" } iface_is_enslaved() { local _li _li=$(ip -o link show dev $1) strstr "$_li" " master " || return 1 return 0 } find_iface_with_link() { local iface_path="" iface="" for iface_path in /sys/class/net/*; do iface=${iface_path##*/} str_starts "$iface" "lo" && continue if iface_has_link $iface; then echo "$iface" return 0 fi done return 1 } is_persistent_ethernet_name() { local _netif="$1" local _name_assign_type="0" [ -f "/sys/class/net/$_netif/name_assign_type" ] \ && _name_assign_type=$(cat "/sys/class/net/$_netif/name_assign_type") # NET_NAME_ENUM 1 [ "$_name_assign_type" = "1" ] && return 1 # NET_NAME_PREDICTABLE 2 [ "$_name_assign_type" = "2" ] && return 0 case "$_netif" in # udev persistent interface names eno[0-9]|eno[0-9][0-9]|eno[0-9][0-9][0-9]*) ;; ens[0-9]|ens[0-9][0-9]|ens[0-9][0-9][0-9]*) ;; enp[0-9]s[0-9]*|enp[0-9][0-9]s[0-9]*|enp[0-9][0-9][0-9]*s[0-9]*) ;; enP*p[0-9]s[0-9]*|enP*p[0-9][0-9]s[0-9]*|enP*p[0-9][0-9][0-9]*s[0-9]*) ;; # biosdevname em[0-9]|em[0-9][0-9]|em[0-9][0-9][0-9]*) ;; p[0-9]p[0-9]*|p[0-9][0-9]p[0-9]*|p[0-9][0-9][0-9]*p[0-9]*) ;; *) return 1 esac return 0 } is_kernel_ethernet_name() { local _netif="$1" local _name_assign_type="1" if [ -e "/sys/class/net/$_netif/name_assign_type" ]; then _name_assign_type=$(cat "/sys/class/net/$_netif/name_assign_type") case "$_name_assign_type" in 2|3|4) # NET_NAME_PREDICTABLE 2 # NET_NAME_USER 3 # NET_NAME_RENAMED 4 return 1 ;; 1|*) # NET_NAME_ENUM 1 return 0 ;; esac fi # fallback to error prone manual name check case "$_netif" in eth[0-9]|eth[0-9][0-9]|eth[0-9][0-9][0-9]*) return 0 ;; *) return 1 esac } iface_get_subchannels() { local _netif local _subchannels _netif="$1" _subchannels=$({ for i in /sys/class/net/$_netif/device/cdev[0-9]*; do [ -e $i ] || continue channel=$(readlink -f $i) printf -- "%s" "${channel##*/}," done }) [ -n "$_subchannels" ] || return 1 printf -- "%s" ${_subchannels%,} }
Close
